Title :
Exploiting Virtual Addressing for Increasing Reliability
Author :
Cakmakci, Yaman ; Ergin, Oguz
Author_Institution :
Comput. Eng. Dept., TOBB Univ. of Econ. & Technol., Ankara, Turkey
fDate :
Jan.-June 28 2014
Abstract :
A novel method to protect a system against errors resulting from soft errors occurring in the virtual address (VA) storing structures such as translation lookaside buffers (TLB), physical register file (PRF) and the program counter (PC) is proposed in this paper. The work is motivated by showing how soft errors impact the structures that store virtual page numbers (VPN). A solution is proposed by employing linear block encoding methods to be used as a virtual addressing scheme at link time. Using the encoding scheme to assign VPNs for VAs, it is shown that the system can tolerate soft errors using software with the help of the discussed decoding techniques applied to the page fault handler. The proposed solution can be used on all of the architectures using virtually indexed addressing. The main contribution of this paper is the decreasing of AVF for data TLB by 42.5%, instruction TLB by 40.3%, PC by 69.2% and PRF by 33.3%.
Keywords :
buffer storage; encoding; AVF; PC; PRF; TLB; VPN; decoding techniques; linear block encoding methods; page fault handler; physical register file; program counter; soft errors; translation lookaside buffers; virtual address storing structures; virtual addressing; virtual addressing scheme; virtual page numbers; virtually indexed addressing; Fault tolerance; Hardware; Memory management; Virtual memory; B Hardware; B.3 Memory Structures; B.3.2 Design Styles; B.3.2.h Virtual memory; B.3.4 Reliability, Testing and Fault-Tolerance;
Journal_Title :
Computer Architecture Letters
DOI :
10.1109/L-CA.2013.2
